首页|Bacteria-Derived Peptidoglycan Triggers a Noncanonical Nuclear Factor-kappaB-Dependent Response in Drosophila Gustatory Neurons
Bacteria-Derived Peptidoglycan Triggers a Noncanonical Nuclear Factor-kappaB-Dependent Response in Drosophila Gustatory Neurons
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NSTL
Probing the external world is essential for eukaryotes to distinguish beneficial from pathogenic micro-organisms. If it is clear that the main part of this task falls to the immune cells, recent work shows that neurons can also detect microbes, although the molecules and mechanisms involved are less characterized. In Drosophila, detection of bacteria-derived peptidoglycan by pattern recognition receptors of the peptidoglycan recognition protein (PGRP) family expressed in immune cells triggers nuclear factor-kappaB (NF-kappaB)/immune deficiency (IMD)-dependent signaling. We show here that one PGRP protein, called PGRP-LB, is expressed in bitter gustatory neurons of proboscises. In vivo calcium imaging in female flies reveals that the PGRP/ IMD pathway is cell-autonomously required in these neurons to transduce the peptidoglycan signal. We finally show that NF-kappaB/IMD pathway activation in bitter-sensing gustatory neurons influences fly behavior. This demonstrates that a major immune response elicitor and signaling module are required in the peripheral nervous system to sense the presence of bacteria in the environment.
NSTL
